An X ray takes more energy to generate because it is higher frequency (second in shortest wavelength only to gamma rays). Microwaves are just higher frequency radio waves.
X-ray. The energy of a light photon is inversely proportional to its wavelength. (so as the wavelength shortens, the energy goes up.) X-rays have the shortest wavelengths of the types of light you mentioned. In order of energy highest to lowest, the lights you mentioned would be: x-ray, ultraviolet, blue, microwave.
Massive stars cannot generate energy from iron fusion because iron fusion does not release energy, rather it absorbs energy. Iron is the most stable element, and fusion of iron requires more energy than it produces, making it an unfavorable process for generating energy in stars. This leads to the collapse of the star's core and triggers a supernova explosion.
we recently had a bio test in our school in which the same question was aked so the right answer was as follows..........mitochondria does the cellular respiration that's why its called the power house of the cell......................
The energy level that holds a maximum of 8 electrons holds the most energy because 8 electrons = maximum stability so it takes more energy to break away an electron. The energy level that holds a maximum of 8 electrons holds the most energy because 8 electrons = maximum stability so it takes more energy to break away an electron. The energy level that holds a maximum of 8 electrons holds the most energy because 8 electrons = maximum stability so it takes more energy to break away an electron. The energy level that holds a maximum of 8 electrons holds the most energy because 8 electrons = maximum stability so it takes more energy to break away an electron.
The main energy producers in a cell are mitochondria, which generate ATP through cellular respiration. Additionally, chloroplasts in plant cells produce energy through photosynthesis. Both processes involve converting nutrients into usable energy for the cell.
X-ray. The energy of a light photon is inversely proportional to its wavelength. (so as the wavelength shortens, the energy goes up.) X-rays have the shortest wavelengths of the types of light you mentioned. In order of energy highest to lowest, the lights you mentioned would be: x-ray, ultraviolet, blue, microwave.
No, this microwave is not energy star approved. In fact, Energy Star does not currently approve/label ANY microwave ovens. However, most microwave ovens of the same size/wattage use comparable amounts of energy, and microwave ovens use substantially less energy than conventional ovens.
The GE Microwave - Spacemaker JVM1540 is a very good option for energy efficiency plus it has a five star rating.
Because they have the most people and industries (in Canada)
I think the most common way to generate electricity is from fossil fuels like coal and gas. Another way to get electricity is from hydroelectricity. Wind energy is the third most common energy resource.
The most energy-dense fuel available is uranium, which is used in nuclear power plants to generate electricity.
All microwave ovens use only 1/3 to 1/2 the energy of a conventional oven or stove. Microwaves are not required to have an energy star lable to show you their average energy usage, But all the different wattages of microwaves are similar in average energy usage.
Microwaves interact with matter by causing molecules within the material to vibrate and generate heat through a process called dielectric heating. The microwaves excite water molecules, fats, and sugars, which leads to the generation of thermal energy that cooks the food. Materials that contain water, such as food, are most affected by microwave radiation.
The best type of power plant to generate the most clean energy at a low cost would probably be wind and power energy. However, the issue of space would eventually come into play as it is not the most practical.
The most common source of energy used to produce electricity is fossil fuels, such as coal, natural gas, and oil. These fuels are burned to generate heat, which is then used to produce steam that drives turbines to generate electricity.
Running a microwave oven with metal in it will result in the reflection of the microwave energy off the metal. There is an exception, and that's the problem. Let's look at that. If metal in a microwave is in a certain shape, that is, if it has a certain geometry, it can act as a microwave antenna. It can cause the microwave energy to generate "specific" electric currents in the metal, and voltages can spike high enough to create electric arcs in the cavity. That's bad. We can use metal in a microwave (like to cover the ends of drumsticks), but we must follow the manufacturer's instructions when doing so.
The microwave oven uses radiation in the range of microwaves in order to provide energy and heat food, cooking it. Most people simply don't add the word oven to avoid confusion.